Most Common Errors in Service Entrance and Load Side Install
Most Common Errors in Service Entrance Installations Prior...
Transcript of Most Common Errors in Service Entrance Installations Prior...
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Most Common Errors in Service Entrance InstallationsPrior to Final DU Inspection
Residential and Small-Medium Commercial Buildings
Secondary Voltage
RME Forum – November 29, IIEE Convention
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Format of Presentation:
1. Error Mentioned or Shown2. Relevant PEC Code 2009 Article/s3. Picture of Correct Installations
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1. No Sufficient Drip Loops for Service Entrance Wires
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Article 2.30.4.15
Overhead Service Locations
(f) Drip Loops. Drip loops shall be formed on individual conductors. To
prevent the entrance of moisture, service entrance conductors shall be
connected to the service drop conductors either (1) below the level of the
service head or (2) below the level of the termination of the service
entrance cable sheath.
(g) Arranged That Water Will Not Enter Service Raceway or Equipment.
Service-drop conductors and service-entrance conductors shall be arranged
so that water will not enter service raceway or equipment.
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A rain-tight service head (weatherhead) shall be provided.
0.6-m (2 ft) minimum - drip loop
Service Entrance (Installation)
The service entrance conductorsshall be provided with drip loop,which shall not be shorter than0.6-m (2 ft).
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2. Service wires without sufficient clearance from
building openings
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Service wire without sufficient clearance from building opening
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Service wire without sufficient clearance from building opening
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Article 2.30 – Services
2.30.1.9 Clearances on Buildings
(a) Clearances. Service conductors installed as open conductors or
multiconductor cable without an overall outer jacket shall have a
clearance of not less than 900 mm from windows that are designed to
be opened, doors, porches, balconies, ladders, stairs, fire escapes, or
similar locations.
Exception: Conductors run above the top level of a window shall be
permitted to be less than the 900 mm requirement
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Article 2.30 – Services
2.30.1.9 Clearances on Buildings
(b) Vertical Clearance. The vertical clearance of final spans above, or
within 900 mm measured horizontally of, platforms, projections or
surfaces fro which they might be reached shall be maintained.
(c) Building Openings. Overhead service conductors shall not be
installed beneath openings through which materials may be moved,
such as openings in farm and commercial buildings, shall not be installed
where they obstruct entrance to these building openings
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b. Vertical Clearance from Ground
• 3000 mm – at the electric service entrance to buildings, also at the lowest
point of the drip loop of the building electric entrance, and above areas or
sidewalks accessible only to pedestrians, measured from final grade or
other accessible surface only for service-drop cables supported on and
cabled together with a grounded bare messenger where the voltage does
not exceed 300 volts to ground
2.30.2 Overhead Service-Drop Conductors
Article 2.30 – Services
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b. Vertical Clearance from Ground
(2) 3600 mm – over residential property and driveways and those commercial
areas not subject to truck traffic where voltage does not exceed 300 volts
to ground
(3) 4500 mm – for those areas listed in the 3600 mm classification where the
voltage exceeds 300 volts to ground
(4) 5500 mm – over public street, alleys, roads, parking areas subject to truck
traffic, driveways on other than residential property, and other land
traversed by vehicles, such as cultivated, grazing, forest and orchard
2.30.2 Overhead Service-Drop Conductors
Article 2.30 – Services
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SERVICE DROP
Minimum Clearance= 900 mm (min.)
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The poles shall have sufficient height to obtain the applicable minimum vertical clearance of service drop, service point, and the point of attachment over grounds:
Service Entrance Pole (Pole Height)
NATIONAL HIGHWAY
DRIVEWAYS AND AREAS SUBJECT
TO TRUCK TRAFFIC
DRIVEWAYS AND AREAS NOT SUBJECT TO
TRUCK TRAFFIC
SIDEWALK
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3. For customers with generating set:
no interlock for transfer switch
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For customers with generating set: no interlock for transfer switch
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(a) General. Transfer equipment, including automatic transfer
switches, shall be automatic and identified for standby use and
approved by the authority having jurisdiction.
Transfer equipment shall be designed and installed to prevent the inadvertent interconnection of normal and alternate sources of supply in any operation of the transfer equipment. Transfer equipment and electric power production systems installed to permit operation in parallel with the normal source shall meet the requirements of Article 7.5.
(c) Automatic Transfer Switches. Automatic transfer switches shall be electrically operated and mechanically held.
Article 7.1.1.7 Legally Required Standby Systems-Transfer Equipment.
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Transfer equipment shall be suitable for the intended use and designed and installed so as to prevent the inadvertent interconnection of normal and alternate sources of supply in any operation of the transfer equipment.Transfer equipment and electric power production systems installed to permit operation in parallel with the normal source shall meet the requirements of Article 7.5.
Transfer equipment, located on the load side of branch circuit protection, shall be permitted to contain supplementary overcurrent protection having an interrupting rating sufficient for the available fault current that the generator can deliver. The supplementary overcurrent protection devices shall be part of a listed transfer equipment.
Transfer equipment shall be required for all standby systems subject to
the provisions of this article and for which an electric-utility supply is
either the normal or standby source.
Article 7.2.1.6 Optional Standby System-Transfer Equipment.
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Double Throw Transfer Switch
The transfer switch could be manually orautomatically operated.
Non-automatic Transfer Switch
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Auto
matic T
ransfe
r Sw
itch
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The transfer switch shall be provided withmechanical and/or electrical interlock.
slide 30
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Indicating lightsshall be providedto indicate that thetransfer switch isconnected to thenormal source(green) or to theemergencysource (red).
slide 31
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4. No GSC for each service entrance
conduit or raceway
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No GSC for each service entrance raceway
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(1) Routing and Sizing. This conductor shall be routed with the phase conductors and shall not be smaller than the required grounding electrode conductor specified in Table 2.50.3.17 but shall not be required to be larger than the largest ungrounded service-entrance phase conductor. In addition, for service-entrance phase conductors larger than 1100 kcmil copper or 850 mm2 aluminum, the grounded conductor shall not be smaller than 12½ percent of the area of the largest service-entrance phase conductor. The grounded conductor of a 3-phase, 3-wire delta service shall have an ampacity not less than that of the ungrounded conductors.
(2) Parallel Conductors. Where the service-entrance phase conductors are installed in parallel, the size of the grounded conductor shall be based on the total circular mil area of the parallel conductors as indicated in this section. Where installed in two or more raceways, the size of the grounded conductor in each raceway shall be based on the size of the ungrounded service-entrance conductor in the raceway but not smaller than 50 mm2.
Article 2.50.2.5 – Grounding Service-Supplied Alternating-Current Systems.
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(a) Conductors Grouped Together. Where conductors carrying alternating current are installed in metal enclosures or metal raceways, they shall be arranged so as to avoid heating the surrounding metal by induction. To accomplish this, all phase conductors and, where used, the grounded conductor and all equipment grounding conductors shall be grouped together.
3.0.1.20 Induced Currents in Metal Enclosures or Metal Raceways.
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• For parallel service entrance, each raceway shall have a GSC installed and grouped w/ the phase conductors and shall be of the same size, length, material, insulation and termination. Sizing shall be in accordance w/ Table 2.50.3.17.
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• Sizing shall be in accordance with Table 2.50.3.17. • This is accomplished by sizing it based on the total area of
the largest phase conductor.
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5. GSC not bonded to service equipment enclosure
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4. GSC not bonded to service equipment enclosure
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Bonding Jumper, System. The connection between the groundedcircuit conductor and the equipment grounding conductor at aseparately derived system.
Article 1.1.1. General (Definitions)
(b) Main Bonding Jumper. For a grounded system, an unspliced main bonding jumper shall be used to connect the equipment grounding conductor(s) and the service-disconnect enclosure to the grounded conductor within the enclosure for each service disconnect in accordance with 2.50.2.9.
Article 2.50.2.5 Grounding Service-Supplied Alternating-Current Systems.
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For a grounded system, main bonding jumpers and system bonding jumpers shall be installed as follows:
(a) Material. Main bonding jumpers and system bonding jumpers shall be of copper or other corrosion-resistant material. A main bonding jumper and a system bonding jumper shall be a wire, bus, screw, or similar suitable conductor.
(b) Construction. Where a main bonding jumper or a system bonding jumper is a screw only, the screw shall be identified with a green finish that shall be visible with the screw installed.
(c) Attachment. Main bonding jumpers and system bonding jumpers shall be attached in the manner specified by the applicable provisions of 2.50.1.8.
2.50.2.9 Main Bonding Jumper and System Bonding Jumper.
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Grounding conductors and bonding jumpers shall be connected by exothermic welding, listed pressure connectors, listed clamps, or other listed means.
Connection devices or fittings that depend solely on solder shall not be used. Sheet metal screws shall not be used to connect grounding conductors or connection devices to enclosures.
2.50.1.8 Connection of Grounding and Bonding Equipment.
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Main Bonding Jumper – A conductor, screw or strap that bonds the service disconnecting means to the GSC.
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A ground terminal or
bus shall be provided.
No devices shall
be connected at
the lineside of the
service equipment
The service equipment shall
indicate whether it is in open
or closed position
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6. GSC without distinctive white markings
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GSC without distinctive white markings
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(b) Sizes 14 mm2 or Larger. An insulated grounded conductor of larger than 14 mm2
shall be identified by one of the following means
(1) By a continuous white or gray outer finish
(2) By three continuous white stripes along its entire length on other than green
insulation
(3) At the time of installation by a distinctive white or gray marking at its termination.
This marking shall encircle the conductor or insulation
2.0.1.6 – Means of Identifying Grounded Conductors
(a) Sizes 14 mm2 or Smaller. An insulated grounded conductor of 14 mm2 shall be
identified by a continuous white or gray outer finish or by three continuous
white stripes on other than green insulation along its entire length. Wires that
have their outer covering finished to show a white or gray color but have colored
tracer threads in the braid identifying the source of manufacture shall be considered
as meeting the provisions of this section.
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GSC with distinctivewhite markings
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GSC with distinctivewhite markings
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Grounded Service Conductor
(GSC) - the grounded conductor
from the service point to the
service disconnecting means.
Grounding Electrode Conductor
(GEC) - the conductor use to
connect the grounded conductor
to the grounding electrode at the
service.
Equipment Grounding Conductor
(EGC) - conductor used to connect
non-current-carrying metal parts of
equipment, raceways, and other
enclosures required to be grounded
or bonded.
Grounding Electrode (GE) –
a device that establishes an
electrical connection to the
earth.
Main Bonding Jumper - a conductor
screw or strap that bonds the service
disconnecting means to the GSC.
GROUNDING (Components)
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7. Separate Phase or Color Markings for
Service Entrance Wires
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(C) Ungrounded Conductors. Where the premises wiring system has
a branch circuits supplied from more than one nominal voltage system,
each ungrounded conductor of a branch circuit, where accessible,
shall be identified by the system. The means of identification shall be
permitted to be by separate color coding, marking tape, tagging, or
other approved means and shall be permanently posted at each
branch-circuit panelboard.
Identification of Ungrounded Conductors
2.10.1.5 Identification for Branch Circuits.
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230Y/139 V
San Francisco requires the following color codes:
120/240 Single Phase - "A" Black, "B" Red120/208 Three Phase - "A" Black, "B" Red, "C" Blue120/240 Three Phase - "A" Black, "B" Purple, "C" Red277/480 Three Phase - "A" Brown, "B" Orange, "C" Yellow
They do not permit orange to be used for the high leg (B phase) of a 120/240 delta system. They require it to be purple.
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-End of Presentation-
Most Common Errors in Service Entrance InstallationsPrior to Final DU Inspection